System and method for providing a real-time, online biometric signature

ABSTRACT

A system is provided for generating an online biometrically accurate electronic signature. The system includes a computer interface module which records movement of a cursor on a computer screen and outputs the recorded data. A signature generation module which receives the recorded data and generates a graphical image based upon the recorded data.

CROSS-REFERENCE TO RELATED PATENTS

This application is a Continuation-In-Part of and claims priority toU.S. application Ser. No. 11/205,002 filed on Aug. 17, 2005, and claimspriority to U.S. Provisional Application No. 60/593,210 filed on Dec.21, 2004, the entire contents of each of which are hereby incorporatedby reference.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates generally to systems and methods forrecording a real-time, online biometric signature. More particularly,the present invention relates to a creating, recording and securing anelectronic signature over the Internet, such as via a web browser.

2. Description of the Related Art

Since the outset of the Internet, electronic commerce has proliferateddramatically. It is now common place to transact all types business overthe Internet. Retail sales have benefited from the Internet, and nowmost merchants have web sites that allow online purchasing via a websiteor online catalogue. All that is needed to complete a purchase is accessto the Internet and a credit card.

Online merchants are handicapped by the lack of a written contractsigned by its customers. If an online purchaser disputes a credit cardtransaction, the merchant will not have a signed contract to prove thelegitimacy of the transaction. As a result, online vendors are exposedto undue risk. Accordingly, there is no current method to secure thesignature in its natural state as captured in real-time, complete withits unique biometric characteristics, in order to ensure that a customerconsciously executed the transaction.

Thus, there is a need for systems and methods for generating andcapturing biometric electronic signatures for online transactions.

SUMMARY OF THE INVENTION

According to an embodiment of the present invention, a system isprovided for generating an online, biometrically accurate electronicsignature. The system includes a computer interface module which recordsmovement of a cursor on a computer screen and outputs the recorded data.A signature generation module is also included which receives therecorded data and generates a graphical image based upon the recordeddata.

According to another embodiment of the present invention, a method forcapturing a real-time online electronic, biometrically accuratesignature is provided. The method can include a step of downloadingonline content to a client computer interface. As a result of thedownloading, a signature block is displayed on the client computerinterface. The signature block captures coordinate data from a computerperipheral device. A graphical image of a signature is generated fromthe coordinate data.

According to another embodiment of the present invention, a system isprovided for a real-time online electronic, biometrically accuratesignature. The system may include a web server configured to store andtransmit online content, a client interface and a signature captureprogram. The client interface may be configured to access the web serverand download and display the online content. The signature captureprogram may be configured to display a signature block on the clientinterface, to capture coordinate data of a computer cursor within thesignature block, and to generate a signature image based on the capturedcoordinate data.

According to another embodiment of the present invention, a system isprovided for capturing a real-time online electronic, biometricallyaccurate signature via a web browser on a client computer interface. Thesystem includes a signature capture program configured to display asignature block on the client interface within the web browser, tocapture coordinate data of a computer cursor within the signature block,and to generate a signature image based on the captured coordinate data.

According to another embodiment of the present invention, a system isprovided for generating a real-time online electronic, biometricallyaccurate signature. The system may include means for interfacing with aclient computer, recording movement of a cursor on a computer screen andoutputting recorded coordinate data. The system may also include meansfor receiving the recorded coordinate data and generating a graphicalimage based upon the recorded coordinate data.

According to an embodiment of the present invention, a web browser fordisplaying online content is provided. The web browser includes acomputer interface module which records movement of a cursor on acomputer screen and outputs the recorded data. The web browser furtherincludes a signature generation module which receives the recorded dataand generates a graphical image based upon the recorded data. The webbrowser further includes means for invoking the computer interfacemodule such that online content displayed with the web browser caninvoke the computer interface module.

The invention maybe used to capture signatures, especially over theInternet. Signatures can be stored as a graphic image file for furtherviewing. The present invention may also be used to capture drawings orsketches to be used for later use.

Further applications and advantages of various embodiments of thepresent invention are discussed below with reference to the drawingfigures.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is view of a signature block according to an embodiment of thepresent invention.

FIG. 2 is a view of a signature block including an email address-formfield, according to another embodiment of the present invention.

FIG. 3 is a view of a signature block including additional form fieldsaccording to another embodiment of the present invention.

FIG. 4 is a block diagram of a system for capturing a real-time onlineelectronic, biometrically accurate signature according to an embodimentof the present invention.

FIG. 5 is a screen shot of a signature image generated according to anembodiment of the present invention.

FIG. 6 is a flow chart of a real-time online electronic, biometricallyaccurate signature capture process according to an embodiment of thepresent invention.

FIG. 7 is a view of a signature block including additional form fieldsaccording to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

While the present invention may be embodied in many different forms, anumber of illustrative embodiments are described herein with theunderstanding that the present disclosure is to be considered asproviding examples of the principles of the invention and such examplesare not intended to limit the invention to preferred embodimentsdescribed herein and/or illustrated herein.

The main component of the present invention is a program, application,module, component or the like that displays a signature pad on acomputer screen (e.g., within a web browser window) and capturessignatures input via a mouse or other peripheral device (e.g., writingpad, keyboard arrows, touch pad, etc.). The signature pad is preferablya stand-alone Macromedia Flash program, but could be programmed in otherlanguages such as, but not limited to, JavaScript, ActiveX, MS Sparkle,MS Net, MS Longhorn, Vista, etc. The signature pad may be executed by ahosting application (e.g., web browser) or the like and can be calledfrom any application, such as from an HTML, XML, or XAML page, or may bea browser plug-in.

Preferably, the signature pad is configured to capture a raw signature(i.e., biometric signature) and generate a graphical image thereof. Thesignature pad preferably stores captured signature data securely (in aread only format), such as locally in a file, database, etc. for furtherviewing of the signature, generate a graphic image file of thesignature, or transmit the signature data (e.g., as a character string)to a remote server for secure storage, creation of a graphic image file,or for viewing. Optionally, stored signatures or signature data could beedited, but this is not a preferred option since the biometricallyaccurate signature is desired. The signature data may be captured ascoordinate or pixel data, or coordinate or line data (e.g., beginningand end points, line length, and angle degrees, etc.).

By making the signature pad a stand alone application, such as a Flashprogram, the signature may be captured on its own, without submitting anaccompanying HTML form or the like. The signature pad may be furtherconfigured to notify a site or server (e.g., a merchant web server) whenthe signature has been properly captured and optionally, whether thesignature is verified against a signature on file. Additionalinformation may be captured along with the signature.

FIG. 1 shows an exemplary embodiment of the present invention. Asignature block (signature pad/box) 102 can be displayed on a computerscreen, such as within a web browser window. The signature block 102 ispreferably generated by a Flash or MS Sparkle program and can be part ofa larger form object 100 that can include text, graphics or fields forother data entry.

The signature pad 102 may be displayed on the computer screen in anyshape (e.g., rectangle-shaped) and is configured to allow the computeruser to draw, for example, to sign their name or initials. For aestheticreasons, it may be preferable to include a signature block that is sizedto match a corresponding form or web page. The signature pad 102 mayappear, for example, on an Internet shopping cart or web form. Thepreferred functions of the signature pad are:

-   -   Draw: to write the signature    -   Clear: to erase a signature (“Clear” button 104)    -   Submit or Validate: to send, submit, store or validate the        signature (“Validate” button 106).

The signature pad 102 is configured to capture the coordinates inputfrom a peripheral device, such as a mouse or other pointing device. Thecapture process preferably outputs x and y coordinates of the locationof the windows cursor within the signature pad 102. The capturedcoordinates may then be used to create a graphical image of the rawsignature (i.e., biometrically accurate signature). The coordinates orthe graphical image file or both could be stored for later use.Preferably, the signature data is stored as line data, e.g., beginningand end points, line length and angle degrees. Stored signature data ispreferably secure and could be used to generate a graphic image file(gif) or other image file (e.g., .bmp, .jpg, etc.), when finallycompleted.

Preferably, signatures are displayed within signature pad 102 while theuser is entering the signature. For example, the signature pad 102 couldbe configured to use a computer mouse input to generate a signature.When the left mouse button (not shown) is depressed, and the windowscursor is within the signature pad 102, the coordinates of the mousecursor can be captured by signature pad 102 and simultaneously displayedtherein to the user via a program display function (e.g., Flash lineLINETO command), so that the user can see the signature as it is beingwritten. Captured signatures, signature data, graphical objects, etc.may be accessed by any means, such as online through a web page or link.

Preferably, the graphical image of the biometric signature and/or theraw signature data is transmitted to a remote server for storing. Theimage or signature data is preferably stored in a file format and can beassigned an URL address for convenient access. As mentioned above, thesignature may be captured and stored independent of any otherapplication. Therefore, if the signature is captured in connection witha merchant web site or the like, the present invention may be configuredto notify the merchant when the signature has been submitted, if thereis an error, and even whether the signature is verified, such as againsta stored signature. For example, the signature pad 102 or remote server(see FIG. 4) may be configured to provide the URL of the storedsignature to the merchant or party requesting the signature data. Filesare preferably stored with advanced encryption methods for security.

The signature coordinates or graphic image may be submitted and/orstored along with any additional accompanying data, which could be usedto identify the signature or signer. For example, as shown in FIG. 2, aform field to enter the Email Address could be included in a separateblock 202. Any data could be stored or captured with a signature. Forexample, one or more of the following: a Client ID, Customer ID, an IPaddress, a Session ID, an email address, and Company ID, SSN, EIN, SIN,etc. See also FIG. 7. This additional data may be supplied by the signerby typing the information into form fields (on the signature pad itselfor in the hosting application, such as the web browser HTML code), or itmay be embedded in HTML or code or a client program used to host ordisplay the signature pad 102. If required data is missing or invalid,the signature capture process could be configured to display anappropriate error message to the user in the form of a dialog box, webpage, etc.

Another example is shown in FIG. 3. An HTML form 300 includes fields 302for entry of City, Location, Zip, Phone, 800#, and Fax number. Thedrawing pad 102 has a Submit button 304 below it. If the Submit button304 is depressed before all the fields are filled in or before thesignature is drawn, an error message could be generated. Alternatively,the signature can be submitted irrespective of whether all the HTML formfields 302 have been filled in and the HTML form can be submittedseparately.

Note that the present invention can operate independent from an HTMLpage. Further, the present invention is not limited to integration withan HTML page and the functionality of the signature pad 102 can beintegrated with other programs, such as XML, XAML, MS Sparkle, MS Net,etc.

When additional data is supplied, the data could be captured with thesignature. In the alternative or in addition thereto, it may be stored,for example in a database, to aid in future lookup of the capturedsignature. The signature and its accompanying data could be submittedindependently from the hosting application form. If it is submitted tothe server with the form, the server may redirect or download a web pageto the client. If it is submitted independently, the hosting applicationor the signature capture program may display a message, such as a dialogbox, to the user and/or redirect the user when the signature has beensuccessfully received by the server or if there is an error.

The signature or drawing can be captured on the client side, forexample, with program executed on the client PC, for example, by a webbrowser. The program could comprise written instructions in any computerprogramming language having the appropriate capabilities, but ispreferably designed specifically for online (e.g., Web) applications,such as HTML, XAML, Flash, JavaScript, MS Sparkle, MS .Net, MS Longhorn,Vista, etc. The program can be configured to record x and y coordinatesof the signature, which may be used for viewing, secure storage orediting, and/or send the signature data in the form of pixel data, orcoordinate or line data (e.g., begin and end points, line length, andangle degrees, etc.), to a server for viewing/editing/storage. An imagegeneration program or module may use the coordinates to create thesignature or drawing as a graphic image, which can be stored as a fileon a file system, possibly for access online or in a database.

One skilled in the art will understand that the signature capture andimage generation processes could be combined and implemented by a singlecomputer program or by several separate components residing together orremote from each other. For example, a Flash program could be downloaded(e.g., with or from an HTML page) to capture the signature data and sendthe data to a remotely located program, which generates the image of thesignature.

The signature may be submitted as part of a hosting program form ortransmitted transparently and independently from a hosting applicationfor, or uploaded to a server as coordinates, for example, in an ASCIIdelimited character string as x/y coordinates or as line data comprisingbegin and end points of each straight line or angle degree and linelength, or as a graphic image file. A server may use the coordinates tocreate a graphic image file, and may store the graphic image file orsignature data for future display or editing.

Once the signature has been recorded and submitted at the client side, a“Thank You” message could be delivered to the client. For example, theclient could be redirected to a web page, a “pop-up” or dialogue boxcould be displayed, etc. This message could be generated by server-sidescript or called from the client.

Signatures can be validated by comparing the generated signature orsignature data against a stored signature or stored signature data. Thestored signature or stored signature data could be identified by usingadditional data, such as email address or name, or a unique ID such as aclient ID or session ID, which could be embedded as a parameter in anhosting application form (e.g., HTML or XAML) that loads the signaturepad application or typed directly into the hosting application form orsignature pad form field(s) so that both the hosting application and thesignature pad application send the same ID to the server. This ID couldbe used by the merchant or other entity requesting the signature, toaccess the stored generated signature.

The client and/or the merchant could receive the Thank You via an emailgenerated by the signature pad or by a server script. Such an emailcould contain links(s) to and/or attachment(s), such as an HTML, PDF, orWORD document, containing information related to the signature, such asa graphical image of the signature, additional signature data, areceipt, the signed document, verification that the signature wasrecorded properly or matches a signature on file, etc.

The present invention may be used in nearly any type of computerarchitecture configuration, such as stand-alone or client/serverprogram, application, or component. As an example, FIG. 4 is a blockdiagram of a system for capturing online electronic signatures accordingto an embodiment of the present invention.

As shown, the system 400 could include a web server 402 (e.g.,“merchant” server), a signature link server 404 coupled with a storagedevice 406, and a client interface 408, each coupled with or otherwisein communication with an electronic data network 410, such as theInternet.

The web server 402 may be configured to provide online content such asHTML pages, java programs, streaming broadcast data or multimediaservices, etc. Such content maybe accessed and displayed, played,executed, etc. by client 408, such as via a web browser such as INTERNETEXPLORER. Within the content to be displayed may be a call, such as anembedded object request, which causes the client 408 to access thesignature link server 404 and download a program element configured todisplay a signature block, such as described above with respect to FIGS.1-3. The client 408 executes the program, such as within a web browser,and the user may enter a signature, such as via a peripheral device,such as a computer mouse. The client displays and captures the biometricsignature of the user as described above. The signature data may bestored locally or transmitted directly to the signature link server 404,which can be configured to generate a graphical image of the signature.Otherwise, a graphical image of the signature could be generated locallyand transmitted to the signature link server 404.

The signature link server 404 can store signature data (e.g.,coordinate, pixel or line data) or signature images in a storage device406, which may be part of the server or a separate data storage device.As described above, additional data can be stored with the signatureimage (e.g., in the image itself, in a text file on the file system,etc.) or in a database. For example, additional form data may betransmitted to the signature link server 404 along with the signaturedata and/or a graphical image. The additional form data could be storedin the storage device 406, such as in a database, and linked to thegraphical image of the signature or to the signature data.

Preferably, the signature data and/or image files can be made accessiblevia the electronic data network 410. Alternatively, signature data,additional data, and/or graphical images could be transmitted directlyto the web server 402 from the client 408.

The generated image can be a signature only, or may include otherelements, such as text element related to contract terms or otherinformation associated with an online transaction. For example, as shownin FIG. 5, several clauses are combined with the signature to form anonline electronic signed contract.

After the signature and optional data is received by the server, theserver may save and/or display the receipt of the transaction or theagreement text for which the signature was required. For instance, whenmaking a purchase online, the resulting “Thank You” page may DISPLAY thedetails of your order along with the signature image embedded in theHTML as a signed receipt for the customer to print for future reference.This data may be optionally re-displayed with a dynamic webpage thatgathers the data from storage and displays it preferably as HTML alongwith the embedded signature image. This data could optionally be storedas a static HTML webpage on the server for future reference, especiallyfor the merchant to print off in case of a credit card chargebackdispute.

As another example, when submitting a signature in order to agree to anagreement or Terms & Conditions, the next page could display theagreement or Terms & Conditions with the signature image embedded at thebottom of the webpage. In other words, the FIG. 5 “Thank You” page couldstore the agreed-upon text and/or accompanied data within the signaturegraphic image file itself or as text on the webpage along with thesignature graphic image file.

Since the signature capturing process is independent, it may benecessary to interact with a corresponding process. For example,consider the case where an online merchant desires that a signature berecorded in connection with online purchases made from its website. Inthis case, client 408 downloads an HTML page from merchant server 402 inorder to purchase merchandise online. At some point in the purchaseprocess, a signature will be required. The merchant HTML page can callthe signature program, which can be downloaded from the signature server404 and then executed in a web browser of client 408. For example, whenpayment information is being entered, before submission of theinformation, the signature may be recorded. Accordingly, client 408displays and captures the biometric signature of the user as describedabove. The signature data may be stored locally or transmitted directlyto the signature link server 404, which can be configured to generate agraphical image of the signature. Otherwise, a graphical image of thesignature could be generated locally and transmitted to the signaturelink server 404.

Now, before the payment information is submitted to the merchant orthird party system to consummate an online transaction, it may bedesired that the signature be confirmed or even validated. In this case,the merchant HTML page can be prevented from being submitted until thesignature is confirmed or validated by the signature server 404. Forexample, a required browser cookie or hidden field in an HTML page mightonly be populated when the “Thank You” message is generated by signatureserver 404. This way, no online transaction can occur without aconfirmed biometric signature being recorded. The hosting applicationform with the required field or browser cookie may optionally besubmitted to the server 402 (e.g., a merchant web server), which checksto make sure that the required fields have been set or filled, and mayoptionally display an error message or the received data and/orsignature as a receipt. The signature may be displayed in the “ThankYou” page as an embedded HTML IMG tag linked to the URL of thesignature, which may reside on signature server 104 or be retrieved tothe server 402. The value of the required field or the unique ID may beused in the image URL/file naming convention, so the server 402 knowsthe URL to the signature image file.

In order for the signature image to be retrieved securely from theserver 404, either by the client 408 or server 402, the receiving partymay be authenticated. Such authentication could include, but is notlimited to, (1) checking to see if the retrieval request is from someonelogged in to the server 404 with the appropriate account; (2) checkingto see if the retrieval request is from the same IP address as theoriginal signer within a limited period of time; (3) checking to see ifthe retrieval request is from a previously designated IP address, suchas of a merchant, as configured by the server 404; or (4) checking tosee if the retrieval request is from someone using the same session orbrowser cookie as the original signer within a limited period. HTTPSand/or SSL secure certificates, or the like, may be used whentransmitting data between computers. The servers 404 and 402 may be thesame server in some embodiments. Further, when the signature or datafile are stored, they can been stored encrypted by standard encryptiontechniques. When, the signature or file is retrieved, standarddecryption techniques can be used to decrypt the signature or filebefore it is sent to the retriever.

FIG. 6 is a flowchart of a method for capturing an online electronicsignature. The method may be implemented with systems and programs asdescribed above with reference to FIGS. 1-5.

At step S6-1, when a user accesses a program, web page, etc. which isconfigured to use an online signature according to an embodiment of thepresent invention, a signature display block or drawing pad is displayedon the user computer separate from or in connection with thecorresponding program, web page, etc. The signature display block ordrawing pad is preferably configured to perform at least the signaturecapture and display process.

At S6-2 the user signs in the drawing via a computer peripheral device,such as a mouse. If the drawing is acceptable to the user, he or she maysubmit the drawing via a submit function or button (S6-3). At S6-4,stored captured data is sent to a server for storing and/or generationof the graphical signature. As described above, additional informationmay be submitted with the coordinate data or with the signature imageand therefore, the signature capture process may be coordinated withother data entry.

A clear function or button can also be provided. If at step S6-3 theclear function is executed, coordinate data is erased and processingreturns to step S6-1.

Data may also be sent directly to a server application upon submission(S6-5). A server application can store the signature coordinate data orgenerate an appropriate graphical image of the signature for displayand/or storage, which may also include other items such as text or data(S6-6). The accompanied data may be stored separately from the graphicimage file, such as in a database and/or in a text file and/or in astatic HTML “receipt” webpage of the transaction.

If there is a problem (S6-7) with the signature or data related thereto,an error message can be displayed (S6-8) and processing can be returnedto step S6-1. Data may be erased or left in place for correction.Otherwise, a final step can be performed (S6-9), such as redirecting theuser to another web page, program, etc. (S6-10) or displaying a successmessage indicating that the transaction is complete and/or the signaturehas been successfully captured and generated (S6-11).

According to another embodiment of the present invention, the signaturecapture program could be included within a hosting application asstandard functionality or as a plug-in. Web pages could invoke thesignature capture feature of the hosting application through standard orbrowser-specific HTML or XAML.

Thus, a number of preferred embodiments have been fully described abovewith reference to the drawing figures. Although the invention has beendescribed based upon these preferred embodiments, it would be apparentto those of skill in the art that certain modifications, variations, andalternative constructions could be made to the described embodimentswithin the spirit and scope of the invention.

1. A system for generating an online electronic, biometric signature, said system comprising: a computer interface module which records movement of a cursor on a computer screen and outputs the recorded data; a signature generation module which receives said recorded data and generates a graphical image of a biometric signature based upon said recorded data.
 2. The system as recited in claim 1, wherein said computer interface module records coordinate data of said cursor.
 3. The system as recited in claim 1, wherein said computer interface module includes a signature block object which is displayed on the screen of a computer, and said computer interface records and outputs coordinate data of cursor movement within said signature block object.
 4. The system as recited in claim 1, wherein said computer interface module comprises one of a FLASH, MS Sparkle, MS Longhorn, Vista or MS Net program.
 5. The system as recited in claim 1, wherein said computer interface module comprises a browser plug-in.
 6. The system as recited in claim 1, wherein said computer interface module comprises a built-in component of a hosting application.
 7. The system as recited in claim 1, wherein said computer interface module comprises a java applet.
 8. The system as recited in claim 1, wherein said computer interface module comprises a downloadable stand-alone computer program.
 9. The system as recited in claim 1, wherein said computer interface module is installed onto a first computer and said signature generation module is installed on a second computer and said data is transmitted from said computer interface module to said signature generation module over an electronic data network.
 10. The system as recited in claim 2, wherein said computer interface module is configured to store signature data, based on said recorded data, in a computer file and transmit said computer file to said signature generation module, and said signature generation module is configured to read said signature data from said computer file.
 11. The system as recited in claim 3, wherein said cursor is moved on said computer by a computer mouse, and said coordinate data is recorded only when a mouse button is depressed on said mouse.
 12. The system as recited in claim 3, wherein said cursor is moved on said computer screen via a peripheral device input into said computer.
 13. The system as recited in claim 12, wherein said peripheral device input into said computer comprises a computer mouse, and said computer interface module is configured to record coordinate data only when a mouse button is depressed upon said mouse.
 14. The system as recited in claim 3, wherein said computer interface module is further configured to transmit a signal to said signature generation module to begin signature generation.
 15. The system as recited in claim 13, wherein said computer interface module is further configured to transmit a signal to said signature generation module to begin signature generation.
 16. The system as recited in claim 1, wherein said computer interface module is further configured to transmit a signal to said signature generation module to begin signature generation.
 17. The system as recited in claim 1, wherein said computer interface module is further configured to display an error message when a data error occurs with entry of data into a corresponding form.
 18. A method for capturing an online electronic, biometric signature, comprising steps of: downloading online content to a client computer interface; as a result of said downloading, executing a signature program module to display a signature block on the client computer interface, said signature block capable of capturing signature data from a computer input peripheral device; said executing program module receiving signature data from said computer peripheral device representing a biometric signature; generating a graphical image of said biometric signature from said coordinate data; storing one of said signature data and said graphical image remotely; when that said one of said signature data and said graphical image is stored, generating a notification indicating that the signature has been received, wherein said program module is executed independently from said online content.
 19. The method for capturing an online electronic signature as recited in claim 18, wherein said step of executing said program module includes a step of downloading a signature block program based on link embedded in said online content, said signature block program configured to display the signature block on the client computer interface and capture the signature data from a computer peripheral device.
 20. The method for capturing an online electronic signature as recited in claim 18, wherein said computer client interface includes a hosting application for displaying said online content to a computer user, and step of executing said program module includes a step of downloading said signature program module from a location different than a location where said online content is stored based on an embedded command in said online content, said signature program module configured to display the signature block on the client computer interface and capture the signature data from a computer peripheral device.
 21. The method for capturing an online electronic signature as recited in claim 20, wherein said signature block module comprises a plug-in to said hosting application.
 22. The method for capturing an online electronic signature as recited in claim 20, wherein said signature block module comprises included in said hosting application.
 23. The method for capturing an online electronic signature as recited in claim 20, wherein said signature block module comprises embedded in said online content.
 24. A system for capturing an online electronic signature, comprising: a web server configured to store and transmit online content; a client interface configured to access said web server and download and display said online content; and a signature capture program configured to display a signature block on said client interface, to capture coordinate data of a computer cursor within said signature block, and to generate a signature image based on said captured coordinate data.
 25. A system for capturing an online electronic signature via a web browser on a client computer interface, said system comprising: a signature capture program configured to display a signature block on said client interface within said hosting application, to capture coordinate data of a computer cursor within said signature block, and to generate a signature image based on said captured coordinate data.
 26. The system for capturing an online electronic signature as recited in claim 25, wherein said signature capture program is stored remote from said client computer interface and is downloadable to said hosting application.
 27. The system for capturing an online electronic signature as recited in claim 25, wherein said signature capture program is downloaded and executed by said client computer interface as a result of an embedded object call in online content displayed by said hosting application.
 28. The system for capturing an online electronic signature as recited in claim 27, wherein said online content includes a form for entering data, and wherein: said signature capture program is configured to capture data entered into said form and link said data with at least one of said coordinate data and said signature image.
 29. The system for capturing an online electronic signature as recited in claim 26, wherein: said signature capture program is configured to capture data entered into said form and link said data with at least one of said coordinate data and said signature image.
 30. The system for capturing an online electronic signature as recited in claim 26, wherein: said signature capture program comprises a signature capture module configured to capture coordinate data of a computer cursor within said signature block, and a signature generation module configured to generate said graphical signature based on said captured data; wherein said signature capture module and signature generation module reside on different computer devices.
 31. A system for generating an online electronic signature, said system comprising: means for interfacing with a client computer, recording movement of a cursor on a computer screen and outputting recorded coordinate data; means for receiving said recorded coordinate data and generating a graphical image based upon said recorded coordinate data.
 32. The system as recited in claim 31, wherein said means for interfacing records coordinate data of a computer windows cursor controlled by a peripheral computer device.
 33. The system as recited in claim 31, wherein said means for interfacing includes a means for displaying a signature block object on the screen of a computer, and records and outputs coordinate data of cursor movement within said signature block object.
 34. The system as recited in claim 31, wherein said means for interfacing comprises one of a FLASH, MS Sparkle, MS Longhorn, Vista or MS Net program.
 35. The system as recited in claim 31, wherein said means for interfacing comprises a hosting application plug-in.
 36. The system as recited in claim 31, wherein said means for interfacing comprises a built-in component of a hosting application.
 37. The system as recited in claim 31, wherein said means for interfacing comprises a java applet.
 38. The system as recited in claim 31, wherein said means for interfacing comprises a computer program.
 39. The system as recited in claim 31, wherein said means for interfacing is installed onto a first computer and said means for receiving is installed on a second computer, and said data is transmitted from said means for interfacing to said means for receiving over an electronic data network.
 40. The system as recited in claim 32, wherein said means for interfacing stores said recorded coordinate data in a file and transmits said file to said means for receiving, and said means for receiving reads said coordinate data from said file.
 41. The system as recited in claim 33, wherein said cursor is moved on said computer by a computer mouse, and said coordinate data is recorded only when a mouse button is depressed on said mouse.
 42. The system as recited in claim 33, wherein said cursor is moved on said computer screen via a peripheral device input into said computer.
 43. The system as recited in claim 42, wherein said peripheral device input into said computer comprises a computer mouse, and said means for interfacing record coordinates data only when a mouse button is depressed upon said mouse.
 44. The system as recited in claim 31, wherein said means for interfacing transmits a signal to said means for receiving to begin signature generation.
 45. The system as recited in claim 31, wherein said means for interfacing transmits a signal to said means for receiving to begin signature generation.
 46. A hosting application, comprising: means for displaying online content; a computer interface module which records movement of a cursor on a computer screen and outputs the recorded data; a signature generation module which receives said recorded data and generates a graphical image based upon said recorded data; and means for invoking said computer interface module such that online content displayed with said hosting application can invoke said computer interface module.
 47. The hosting application as recited in claim 46, wherein said computer interface module records coordinate data of said cursor.
 48. The hosting application as recited in claim 46, wherein said computer interface module includes a signature block object which is displayed on the screen of a computer, and said computer interface records and outputs coordinate data of cursor movement within said signature block object.
 49. The hosting application as recited in claim 47, wherein said computer interface module is configured to store said coordinate data in a file, and said signature generation module is configured to read said coordinate data from said file.
 50. The hosting application as recited in claim 48, wherein said cursor is moved on said computer by a computer mouse, and said coordinate data is recorded only when a mouse button is depressed on said mouse.
 51. The hosting application as recited in claim 48, wherein said cursor is moved on said computer screen via a peripheral device input into said computer.
 52. The hosting application as recited in claim 51, wherein said peripheral device input into said computer comprises a computer mouse, and said computer interface module is configured to record coordinate data only when a mouse button is depressed upon said mouse.
 53. The hosting application as recited in claim 52, wherein said computer interface module is further configured to display an error message when a data error occurs with entry of data into a corresponding form.
 54. The system as recited in claim 31, wherein said means for interfacing is installed onto a same computer as said means for receiving is installed.
 55. The method for capturing an online electronic signature as recited in claim 20, wherein said online content comprising an HTML or XAML form and said HTML or XAML form is submitted independent from said execution of said signature program module.
 56. The method for capturing an online electronic signature as recited in claim 55, wherein said signature program updates said HTML or XAML form, or a browser cookie, when said one of said signature data and said graphical image is stored.
 57. The system as recited in claim 31, wherein said means for interfacing comprises a component or control file loaded by a hosting application. 